초록 ▼

A transmission system that is used in conjunction with a microturbine engine for propelling an aircraft body, such as a propeller-based fixed-wing aircraft or a rotor-based vertical lift aircraft, or for a wide variety of other applications. The output shaft of the microturbine engine preferably ope

A transmission system that is used in conjunction with a microturbine engine for propelling an aircraft body, such as a propeller-based fixed-wing aircraft or a rotor-based vertical lift aircraft, or for a wide variety of other applications. The output shaft of the microturbine engine preferably operates at a rotational speed in a range between 72,000 RPM and 150,000 RPM with an output power between 150 HP and 5 HP (and most preferably operates in an extended range between 50,000 RPM and 200,000 RPM with an output power between 200 HP and 5 HP). The two reduction stages provide a reduction ratio preferably having a value of at least 19, and most preferably greater than 24. The transmission system is of small-size preferably having a maximum diameter less than twelve inches. The two stages of the transmission system may comprise any one (or parts of) of a number of configurations, including an in-line lay shaft configuration, an in-line star-star configuration, an offset star-spur configuration, an offset compound idler configuration, an inline traction-internal gear configuration, and an inline traction-planetary gear configuration. Preferably, the input stage of the transmission system is self-equilibrating such that first shaft can be supported without bearings and is operably coupled to the output shaft of the microturbine engine by an outside diameter piloted spline coupling mechanism. For vertical lift applications, a single traction stage along with a bevel gear assembly or other shaft transmission mechanism can be used to provide the necessary RPM reduction.

대표청구항 ▼

What is claimed is: 1. A transmission system for use with a microturbine engine, the transmission system comprising: a bearingless floating input member operably coupled to rotational output of the microturbine engine, the bearingless floating input member rotating about a first rotational axis, th

What is claimed is: 1. A transmission system for use with a microturbine engine, the transmission system comprising: a bearingless floating input member operably coupled to rotational output of the microturbine engine, the bearingless floating input member rotating about a first rotational axis, the bearingless floating input member including a first shaft and an input pinion gear integral thereto; a first reduction stage comprising a plurality of self-equilibrating gears that mesh to said input pinion gear and that drive a plurality of intermediate shafts, the plurality of intermediate shafts rotating about fixed rotational axes that are offset relative to said first rotational axis; and a second reduction stage comprising a plurality of pinion gears that are affixed to said plurality of intermediate shafts and that mesh to an output gear that is integral to an output shaft, the output shaft rotating about a fixed rotational axis that is offset relative to said first rotational axis; wherein said first and second reduction stages cooperate to drive the output shaft at a reduced rotational speed relative to the rotational output of the microturbine engine; and wherein said bearingless floating input member is not directly supported by bearings and floats such that radial and thrust loads applied thereto are effectively cancelled by the self-equilibrating gears of the first stage. 2. A transmission system according to claim 1, wherein: said bearingless input member rotates about said first rotational axis at a rotational speed greater than 72,000 RPM. 3. A transmission system according to claim 1, wherein: said bearingless input member rotates about said first rotational axis at a rotational speed in a range between 72,000 RPM and 150,000 RPM. 4. A transmission system according to claim 3, wherein: the bearingless input member rotates about the first rotational axis with an output power between 150 HP and 5 HP. 5. A transmission system according to claim 1, wherein: said second reduction stage provides a reduction ratio greater than said first reduction stage. 6. A transmission system according to claim 5, wherein: said first and second reduction stages provide a reduction ratio having a value of at least 19. 7. A transmission system according to claim 6, wherein: said reduction ratio has a value greater than 24. 8. A transmission system according to claim 1, wherein: largest diameter of said transmission system is less than twelve inches. 9. A transmission system according to claim 1, wherein: said output shaft is operably coupled to a rotating element for propelling an aircraft body. 10. A transmission system according to claim 9, wherein: said aircraft body comprises a fixed-wing aircraft body, and said rotating element comprises a propeller. 11. A transmission system according to claim 9, wherein: said aircraft body comprises a vertical-lift aircraft body, and said rotating element comprises a rotor. 12. A transmission system according to claim 1, wherein: an outside diameter piloted spline coupling mechanism couples said first shaft to the rotational output of the microturbine engine. 13. A transmission system according to claim 12, wherein: an outside diameter section of said first shaft includes a plurality of pilot grooves that engage projections that extend radially downward from a corresponding inside diameter section of the rotational output of the microturbine engine. 14. A transmission system according to claim 1, further comprising: an idler gear that meshes to one of said self-equilibrating gears, said idler gear providing an interface to an accessory unit. 15. A propulsion system for an aircraft comprising: a microturbine engine; and a transmission system according to claim 1. 16. A propulsion system according to claim 15, wherein: said output shaft of said transmission system is operably coupled to a rotating element for propelling an aircraft body. 17. A propulsion system according to claim 16, wherein: said aircraft body comprises a fixed-wing aircraft body, and said rotating element comprises a propeller. 18. A propulsion system according to claim 16, wherein: said aircraft body comprises a vertical-lift aircraft body, and said rotating element comprises a rotor. 19. An aircraft comprising: an aircraft body; the propulsion system of claim 15; and a rotating element, operably coupled to said propulsion system for propelling said aircraft body. 20. An aircraft according to claim 19, wherein: said aircraft body comprises a vertical-lift aircraft body, and said rotating element comprises a rotor. 21. An aircraft according to claim 19, wherein: said aircraft body comprises a fixed-wing aircraft body, and said rotating element comprises a propeller. 22. A transmission system according to claim 1, further comprising: coupling means for detachably coupling the bearingless floating input member to rotational output of the microturbine engine.